\technologies that enable the Internet of Things

IoT makes extensive use of standard agreements and communication technologies. However, the main permitting technologies and IoT protocols are RFID, NFC, low-power Bluetooth, low-power wireless, low-power radio protocols, and LTE-A. This technology supports the specific network performance required for an IoT system in contrast to a standard network uniform for standard applications.

Along with empowering technology, IoT also relies on other technologies to maximize the opportunities created by IoT. These include:

Big data
Cloud Computing
The senses
Maths Software
This backup technology is there to ensure that data from IoT devices can be collected, stored and analyzed. However, let's take a closer look at technologies that allow for the Internet of Things.

RFID (Radio Frequency Identification)
RFID offers a simple, low-cost, and flexible option for ownership and access tokens, bootstrapping connections, and payments. RFID technology uses two-way radio transmitters to identify and track associated tags.

The use of RFID technology in IoT is extremely broad and varied. RFID tags are primarily used to make everyday objects interact with the main hub and report their status. Sales, manufacturing, asset management, smart asset storage, and banking are some of the major industries that use RFID Internet of Things solutions.

NFC (Near Field Communication)
Similar to RIFD, NFC is also a simple, low-power IoT solution. NFC has communication policies for electronic devices, usually a mobile device and a standard device.

With precise tapping and navigation, NFC makes it easy and accurate to connect two different IoT devices. Because NFC chips have to be very close to start a transaction, NFC is a clear indication that the user intends to take some action. The NFC's short range also protects against unauthorized access by hackers.

Bluetooth Low Energy (BLE)
This technology supports low power, the need for long-term use of IoT function while exploiting conventional technology with native support across all systems. Bluetooth Low Energy is well suited for mid-range and short-term communication conditions involving low to medium overhead. Telemetry applications, durability and health, and user device (HID) are the main focus of this technology.

BLE can also be used to track real-time location, in-house acquisition and customer engagement experience.

The great advantage of using Bluetooth Low Energy is that it enables direct connection to a variety of modern smartphones without the need for connectors. All major smartphone platforms, including Android and Apple iOS, provide powerful and accessible APIs to enable the development of Bluetooth Low Energy applications.

Low Power
Power is a problem for IoT developers - and communication links are one of the most hungry for common system power. While sensors and other parameters can be shortened for a long time, communication, especially recipients, usually requires maintenance in listening listening mode.

Low-energy wireless not only reduces usage but also extends the life of the device with minimal use. This reduces the cost and disruption of replacing their devices or batteries. A great solution is to power the system from nature, such as solar energy.

Low Rental Radio Agreements
Another alternative to low power wire can be low power radio, or low power radio (LPR) as it is sometimes referred to. LPRs offer low power consumption and are seen as an inexpensive alternative.

Some of the most important connectivity requirements for connecting IoT devices are broad power supply, low power consumption, ultra-low standby power, long distance, and compliance with international standards, which may be one of the most desirable requirements as it proves the device is reliable and of high quality. .

LTE-A (LTE Advanced)
LTE-A, or LTE Advanced, brings significant improvements to LTE technology by adding not only its coverage but also reducing its delays and enhancing its efficiency. It gives IoT greater power by expanding its range, with its most important applications being a car, a UAV, and similar communications.

The latest version of the LTE standard is the LTE-A Pro. While earlier models of LTE served as a highway for information, with smaller packets of data moving from one location to another, the LTE-A Pro operated more as a fast, multi-story superhighway. If you select the installed LTE-A Pro module for your IoT devices, you will see a significant increase in data speed, capacity and efficiency.

NEC and IoT technology
NEC offers solutions that utilize these IoT technologies, such as BLE, to track assets with Juniper Mist Wireless access points with built-in BLE sensors. These solutions can be used for indoor route detection and reversed with turn-by-turn directions.

NEC also incorporates BLE into our iQuarantine solution - providing a way to curb the spread of COVID-19.

NEC is also currently developing payments with face solutions that can use BLE as two-factor authentication and an enhanced customer experience with sensitivity to alert customers to targeted advertising and digital signage.